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FANUC Series 16*-MODEL BFANUC Series 18*-MODEL B FANUC Series 160*-MODEL B FANUC Series 180*-MODEL B FANUC Series 160*s-MODEL BFANUC Series 180*s-MODEL B
PARAMETER MANUAL
B-63530EN/03
No part of this manual may be reproduced in any form. All specifications and designs are subject to change without notice. The export of this product is subject to the authorization of the government of the country from where the product is exported. In this manual we have tried as much as possible to describe all the various matters. However, we cannot describe all the matters which must not be done, or which cannot be done, because there are so many possibilities. Therefore, matters which are not especially described as possible in this manual should be regarded as impossible. This manual contains the program names or device names of other companies, some of which are registered trademarks of respective owners. However, these names are not followed by or in the main body.
B-63530EN/03 DEFINITION OF WARNING, CAUTION, AND NOTE
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DEFINITION OF WARNING, CAUTION, AND NOTE This manual includes safety precautions for protecting the user and preventing damage to the machine. Precautions are classified into Warning and Caution according to their bearing on safety. Also, supplementary information is described as a Note. Read the Warning, Caution, and Note thoroughly before attempting to use the machine.
WARNING Applied when there is a danger of the user being
injured or when there is a damage of both the user being injured and the equipment being damaged if the approved procedure is not observed.
CAUTION
Applied when there is a danger of the equipment being damaged, if the approved procedure is not observed.
NOTE The Note is used to indicate supplementary
information other than Warning and Caution. - Read this manual carefully, and store it in a safe place.
B-63530EN/03 PREFACE
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PREFACE The models covered by this manual, and their abbreviations are :
Model name Abbreviation FANUC Series 16i-TB 16i-TB FANUC Series 16i-MB 16i-MB
Series 16i
FANUC Series 160i-TB 160i-TB FANUC Series 160i-MB 160i-MB
Series 160i
FANUC Series 160is-TB 160is-TB FANUC Series 160is-MB 160is-MB
Series 160is
FANUC Series 18i-TB 18i-TB FANUC Series 18i-MB5 18i-MB5 FANUC Series 18i-MB 18i-MB
Series 18i
FANUC Series 180i-TB 180i-TB FANUC Series 180i-MB5 180i-MB5 FANUC Series 180i-MB 180i-MB
Series 180i
FANUC Series 180is-TB 180is-TB FANUC Series 180is-MB5 180is-MB5 FANUC Series 180is-MB 180is-MB
Series 180is
NOTE 1 For ease of explanation, the models may be
classified as follows: T series: 16i-TB/160i-TB/160is-TB/18i-TB/180i-TB/180is-TB M series: 16i-MB/160i-MB/160is-MB/18i-MB5/ 180i-MB5/
180is-MB5/18i-MB/180i-MB/180is-MB 2 In this manual, the 18i/180i/180is-MB indicates
both the 18i/180i/180is-MB5 and 18i/180i/180is-MB unless otherwise specified.
3 Some functions described in this manual may not be applied to some products.
For details, refer to the DESCRIPTIONS (B-63522EN).
PREFACE B-63530EN/03
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Related manuals of Series 16i/18i/21i/160i/180i/210i/160is/180is/210is-MODEL B
The following table lists the manuals related to Series 16i, Series 18i, Series 21i, Series 160i, Series 180i, Series 210i, Series 160is, Series 180is, Series 210is-MODEL B. This manual is indicated by an asterisk(*).
Related manuals of Series 16i/18i/21i/160i/180i/210i/160is/180is/ 210is-MODEL B
Manual name Specification number
DESCRIPTIONS B-63522EN CONNECTION MANUAL (HARDWARE) B-63523EN CONNECTION MANUAL (FUNCTION) B-63523EN-1 Series 16i/18i/160i/180i/160is/180is-TB OPERATOR'S MANUAL
B-63524EN
Series 16i/160i/160is-MB, Series 18i/180i/180i-MB5, Series 18i/180i/180is-MB OPERATOR'S MANUAL B-63534EN
Series 21i/210i/210is-TB OPERATOR'S MANUAL B-63604EN Series 21i/210i/210is-MB OPERATOR'S MANUAL B-63614EN MAINTENANCE MANUAL B-63525EN Series 16i/18i/160i/180i/160is/180is-MODEL B PARAMETER MANUAL
B-63530EN *
Series 21i/210i/210is-MODEL B PARAMETER MANUAL B-63610EN PROGRAMMING MANUAL Macro Compiler/Macro Executor PROGRAMMING MANUAL B-61803E-1 C Language Executor PROGRAMMING MANUAL B-62443EN-3 FANUC MACRO COMPILER (For Personal Computer) PROGRAMMING MANUAL
B-66102E
CAP (T series) FANUC Super CAPi T OPERATOR'S MANUAL B-63284EN FANUC Symbol CAPi T OPERATOR'S MANUAL B-63304EN MANUAL GUIDE For Lathe PROGRAMMING MANUAL B-63343EN MANUAL GUIDE For Lathe OPERATOR'S MANUAL B-63344EN CAP (M series) FANUC Super CAPi M OPERATOR'S MANUAL B-63294EN MANUAL GUIDE For Milling PROGRAMMING MANUAL B-63423EN MANUAL GUIDE For Milling OPERATOR'S MANUAL B-63424EN PMC PMC Ladder Language PROGRAMMING MANUAL B-61863E PMC C Language PROGRAMMING MANUAL B-61863E-1 Network I/O Link-II OPERATOR'S MANUAL B-62924EN Profibus-DP Board OPERATOR'S MANUAL B-62924EN Ethernet Board/DATA SERVER Board OPERATOR'S MANUAL B-63354EN FAST Ethernet Board/FAST DATA SERVER OPERATOR'S MANUAL
B-63644EN
DeviceNet Board OPERATOR'S MANUAL B-63404EN PC function Screen Display Function OPERATOR'S MANUAL B-63164EN
B-63530EN/03 PREFACE
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Related manuals of SERVO MOTOR i series The following table lists the manuals related to SERVO MOTOR i series
Manual name Specification numberFANUC AC SERVO MOTOR is series FANUC AC SERVO MOTOR i series DESCRIPTIONS
B-65262EN
FANUC AC SPINDLE MOTOR i series DESCRIPTIONS
B-65272EN
FANUC LINEAR MOTOR series DESCRIPTIONS
B-65222EN
FANUC SERVO AMPLIFIER i series DESCRIPTIONS
B-65282EN
FANUC AC SERVO MOTOR is series FANUC AC SERVO MOTOR i series FANUC AC SPINDLE MOTOR i series FANUC SERVO AMPLIFIER i series MAINTENANCE MANUAL
B-65285EN
FANUC AC SERVO MOTOR is series FANUC AC SERVO MOTOR i series PARAMETER MANUAL
B-65270EN
FANUC AC SPINDLE MOTOR i series PARAMETER MANUAL
B-65280EN
FANUC AC SERVO MOTOR is series FANUC AC SERVO MOTOR i series FANUC AC SERVO MOTOR is series PARAMETER MANUAL
B-65270EN
Related manuals of SERVO MOTOR series
The following table lists the manuals related to SERVO MOTOR series
Manual name Specification numberFANUC AC SERVO MOTOR series DESCRIPTIONS
B-65142E
FANUC AC SPINDLE MOTOR series DESCRIPTIONS
B-65152E
FANUC SERVO AMPLIFIER series DESCRIPTIONS
B-65162E
FANUC SERVO MOTOR series MAINTENANCE MANUAL
B-65165E
FANUC AC SERVO MOTOR series PARAMETER MANUAL
B-65150E
FANUC AC SPINDLE MOTOR series PARAMETER MANUAL
B-65160E
Either of the following servo motors and the corresponding spindle can be connected to the CNC covered in this manual. FANUC SERVO MOTOR i series FANUC SERVO MOTOR series This manual mainly assumes that the FANUC SERVO MOTOR i series of servo motor is used. For servo motor and spindle information, refer to the manuals for the servo motor and spindle that are actually connected.
B-63530EN/03 TABLE OF CONTENTS
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TABLE OF CONTENTS
DEFINITION OF WARNING, CAUTION, AND NOTE .................................s-1 PREFACE....................................................................................................p-1 1 DISPLAYING PARAMETERS.................................................................1 2 SETTING PARAMETERS FROM MDI ....................................................2 3 INPUTTING AND OUTPUTTING PARAMETERS THROUGH
THE READER/PUNCHER INTERFACE .................................................4 3.1 OUTPUTTING PARAMETERS THROUGH THE READER/PUNCHER
INTERFACE .................................................................................................. 5 3.2 INPUTTING PARAMETERS THROUGH THE READER/PUNCHER
INTERFACE .................................................................................................. 6
4 DESCRIPTION OF PARAMETERS ........................................................7 4.1 PARAMETERS OF SETTING........................................................................ 9 4.2 PARAMETERS OF READER/PUNCHER INTERFACE OR REMOTE
BUFFER ...................................................................................................... 14 4.2.1 Parameters Common to all Channels......................................................................15 4.2.2 Parameters of Channel 1 (I/O CHANNEL=0) .......................................................16 4.2.3 Parameters of Channel 1 (I/O CHANNEL=1) .......................................................18 4.2.4 Parameters of Channel 2 (I/O CHANNEL=2) .......................................................18 4.2.5 Parameters of Channel 3 (I/O CHANNEL=3) .......................................................19
4.3 PARAMETERS OF DNC1/DNC2 INTERFACE ........................................... 23 4.4 PARAMETERS OF M-NET INTERFACE..................................................... 27 4.5 PARAMETERS OF REMOTE DIAGNOSIS................................................. 30 4.6 PARAMETERS OF DNC1 INTERFACE #2 ................................................. 34 4.7 PARAMETERS OF MEMORY CARD INTERFACE..................................... 36 4.8 PARAMETERS OF FACTOLINK................................................................. 37 4.9 PARAMETERS OF DATA SERVER............................................................ 39 4.10 PARAMETERS OF ETHERNET.................................................................. 40 4.11 PARAMETERS OF POWER MATE CNC MANAGER................................. 41 4.12 PARAMETERS OF AXIS CONTROL/INCREMENT SYSTEM..................... 42 4.13 PARAMETERS OF COORDINATES........................................................... 58 4.14 PARAMETERS OF STORED STROKE CHECK ......................................... 68 4.15 PARAMETERS OF CHUCK AND TAILSTOCK BARRIER (T SERIES)....... 74 4.16 PARAMETERS OF FEEDRATE.................................................................. 78
TABLE OF CONTENTS B-63530EN/03
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4.17 PARAMETERS OF ACCELERATION/DECELERATION CONTROL ........ 100 4.18 PARAMETERS OF SERVO (1 OF 2) ........................................................ 133 4.19 PARAMETERS OF DI/DO ......................................................................... 188 4.20 PARAMETERS OF DISPLAY AND EDIT (1 OF 2) .................................... 194 4.21 PARAMETERS OF PROGRAMS .............................................................. 236 4.22 PARAMETERS OF PITCH ERROR COMPENSATION ............................ 249 4.23 PARAMETERS OF SPINDLE CONTROL ................................................. 262 4.24 PARAMETERS OF TOOL COMPENSATION ........................................... 315 4.25 PARAMETERS OF WHEEL WEAR COMPENSATION............................. 337 4.26 PARAMETERS OF CANNED CYCLES..................................................... 338
4.26.1 Parameters of Canned Cycle for Drilling .............................................................338 4.26.2 Parameters of Threading Cycle ............................................................................346 4.26.3 Parameters of Multiple Repetitive Canned Cycle ................................................346 4.26.4 Parameters of Small-hole Peck Drilling Cycle.....................................................350
4.27 PARAMETERS OF RIGID TAPPING ........................................................ 355 4.28 PARAMETERS OF SCALING AND COORDINATE SYSTEM
ROTATION ................................................................................................ 384 4.29 PARAMETERS OF SINGLE DIRECTION POSITIONING......................... 388 4.30 PARAMETERS OF POLAR COORDINATE INTERPOLATION ................ 389 4.31 PARAMETERS OF NORMAL DIRECTION CONTROL............................. 392 4.32 PARAMETERS OF INDEX TABLE INDEXING.......................................... 396 4.33 PARAMETERS OF INVOLUTE INTERPOLATION ................................... 398 4.34 PARAMETERS OF EXPONENTIAL INTERPOLATION ............................ 401 4.35 PARAMETERS OF FLEXIBLE SYNCHRONOUS CONTROL................... 402 4.36 PARAMETERS OF STRAIGHTNESS COMPENSATION (1 OF 2) ........... 406 4.37 PARAMETERS OF INCLINATION COMPENSATION .............................. 410 4.38 PARAMETERS OF CUSTOM MACROS................................................... 411 4.39 PARAMETERS OF ONE TOUCH MACRO ............................................... 420 4.40 PARAMETERS OF PATTERN DATA INPUT ............................................ 421 4.41 PARAMETERS OF POSITIONING BY OPTIMAL ACCELERATION ........ 422 4.42 PARAMETERS OF SKIP FUNCTION ....................................................... 428 4.43 PARAMETERS OF AUTOMATIC TOOL OFFSET (T SERIES) AND
AUTOMATIC TOOL LENGTH MEASUREMENT (M SERIES) .................. 436 4.44 PARAMETERS OF EXTERNAL DATA INPUT .......................................... 439 4.45 PARAMETERS OF FINE TORQUE SENSING.......................................... 440 4.46 PARAMETERS OF MANUAL HANDLE RETRACE................................... 442 4.47 PARAMETERS OF GRAPHIC DISPLAY................................................... 450
B-63530EN/03 TABLE OF CONTENTS
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4.47.1 Parameters of Graphic Display / Dynamic Graphic Display................................450 4.47.2 Parameters of Graphic Color ................................................................................455
4.48 PARAMETERS OF RUN HOUR AND PARTS COUNT DISPLAY............. 457 4.49 PARAMETERS OF TOOL LIFE MANAGEMENT ...................................... 461 4.50 PARAMETERS OF POSITION SWITCH FUNCTIONS ............................. 468 4.51 PARAMETERS OF MANUAL OPERATION AND AUTOMATIC
OPERATION.............................................................................................. 472 4.52 PARAMETERS OF MANUAL HANDLE FEED, MANUAL HANDLE
INTERRUPTION AND TOOL DIRECTION HANDLE FEED...................... 480 4.53 PARAMETERS OF MANUAL LINEAR/CIRCULAR FUNCTION................ 487 4.54 PARAMETERS OF REFERENCE POSITION SETTING WITH
MECHANICAL STOPPER ......................................................................... 488 4.55 PARAMETERS OF SOFTWARE OPERATOR'S PANEL .......................... 490 4.56 PARAMETERS OF PROGRAM RESTART............................................... 495 4.57 PARAMETERS OF HIGH-SPEED MACHINING (HIGH-SPEED CYCLE
MACHINING / HIGH-SPEED REMOTE BUFFER) .................................... 496 4.58 PARAMETERS OF ROTARY TABLE DYNAMIC FIXTURE OFFSET ....... 504 4.59 PARAMETERS OF POLYGON TURNING ................................................ 506 4.60 PARAMETERS OF EXTERNAL PULSE INPUT........................................ 513 4.61 PARAMETERS OF HOBBING MACHINE AND SIMPLE ELECTRIC
GEAR BOX (EGB) ..................................................................................... 514 4.62 PARAMETERS OF AXIS CONTROL BY PMC.......................................... 527 4.63 PARAMETERS OF TWO-PATH CONTROL.............................................. 536 4.64 PARAMETERS OF INTERFERENCE CHECK BETWEEN TWO TOOL
POSTS (TWO-PATH) (FOR TWO-PATH CONTROL)............................... 538 4.65 PARAMETERS OF SYNCHRONOUS/COMPOSITE CONTROL AND
SUPERIMPOSED CONTROL ................................................................... 541 4.66 PARAMETERS OF ANGULAR AXIS CONTROL ...................................... 561 4.67 PARAMETERS OF B-AXIS CONTROL..................................................... 564 4.68 PARAMETERS OF SIMPLE SYNCHRONOUS CONTROL ...................... 571 4.69 PARAMETERS OF SEQUENCE NUMBER COMPARISON AND STOP.. 581 4.70 PARAMETERS OF CHOPPING................................................................ 582 4.71 PARAMETERS OF HIGH-SPEED AND HIGH-PRECISION CONTOUR
CONTROL BY RISC (M SERIES) ............................................................. 585 4.71.1 Parameters of Acceleration/Deceleration before Interpolation ............................585 4.71.2 Parameters of Automatic Speed Control ..............................................................589
4.72 PARAMETERS OF HIGH-SPEED POSITION SWITCH (1 OF 2) ............. 602
TABLE OF CONTENTS B-63530EN/03
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4.73 OTHER PARAMETERS ............................................................................ 608 4.74 PARAMETERS OF TROUBLE DIAGNOSIS ............................................. 618 4.75 PARAMETERS OF MAINTENANCE ......................................................... 619 4.76 PARAMETERS OF EMBEDDED MACRO................................................. 621 4.77 PARAMETERS OF HIGH-SPEED POSITION SWITCH (2 OF 2) ............. 628 4.78 PARAMETERS OF SUPERIMPOSED COMMAND FUNCTION IN
BINARY OPERATION ............................................................................... 631 4.79 PARAMETERS OF SERVO SPEED CHECK............................................ 632 4.80 PARAMETERS OF MANUAL HANDLE FUNCTIONS............................... 633 4.81 PARAMETERS OF MANUAL HANDLE FOR 5-AXIS MACHINING .......... 634 4.82 PARAMETERS OF MANUAL HANDLE FEED .......................................... 637 4.83 PARAMETERS OF MULTI-PATH CONTROL ........................................... 639 4.84 PARAMETERS OF ACCELERATIOON CONTROL .................................. 648 4.85 PARAMETERS OF EXTERNAL DECELERATION POSITIONS
EXPANSION.............................................................................................. 650 4.86 PARAMETERS OF OPERATION HISTORY ............................................. 652 4.87 PARAMETERS OF DISPLAY AND EDIT (2 OF 2) .................................... 656 4.88 PARAMETERS OF TOOL MANAGEMENT FUNCTIONS......................... 660 4.89 PARAMETERS OF STRAIGHTNESS COMPENSATION (2 OF 2) ........... 665 4.90 PARAMETERS OF INTERPOLATION TYPE STRAIGHTNESS
COMPENSATION...................................................................................... 667 4.91 PARAMETERS OF MACHINING CONDITION SELECTING SCREEN .... 669 4.92 PARAMETERS OF DUAL CHECK SAFETY ............................................. 681 4.93 PARAMETERS OF SERVO (2 OF 2) ........................................................ 689 4.94 PARAMETERS OF SERVO GUIDE Mate ................................................. 690 4.95 PARAMETERS OF INTERFERENCE CHECK FOR ROTARY AREA....... 691 4.96 PARAMETERS OF SLIDE AXIS CONTROL FOR LINK-TYPE
PRESSES.................................................................................................. 708 4.97 PARAMETERS OF AI/AI-NANO HIGH-PRECISION CONTOUR
CONTROL AND FUNCTIONS RELATED FOR RISC PROCESSOR OPERATION.............................................................................................. 710
4.98 PARAMETERS OF 5-AXIS MACHINING .................................................. 726
APPENDIX
A. CHARACTER CODE LIST..................................................................763
B-63530EN/03 1.DISPLAYING PARAMETERS
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1 DISPLAYING PARAMETERS Follow the procedure below to display parameters. (1) Press the SYSTEM function key on the MDI as many times as
required, or alternatively, press the SYSTEM function key once, then the [PARAM] section display soft key. The parameter screen is then selected.
(2) The parameter screen consists of multiple pages. Use step (a) or
(b) to display the page that contains the parameter you want to display. (a) Use the page select key or the cursor move keys to display
the desired page. (b) Enter the data number of the parameter you want to display
from the keyboard, then press the [NO.SRH] soft key. The parameter page containing the specified data number appears with the cursor positioned at the data number. (The data is displayed in reverse video.)
NOTE If key entry is started with the section select soft
keys displayed, they are replaced automatically by operation select soft keys including [NO.SRH]. Pressing the [(OPRT)] soft key can also cause the operation select keys to be displayed.
2.SETTING PARAMETERS FROM MDI B-63530EN/03
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2 SETTING PARAMETERS FROM MDI Follow the procedure below to set parameters. (1) Place the NC in the MDI mode or the emergency stop state. (2) Follow the substeps below to enable writing of parameters.
1. To display the setting screen, press the OFFSET SETTING function key
as many times as required, or alternatively press the OFFSETSETTING function key once, then the [SETTING] section select soft key. The first page of the setting screen appears.
2. Position the cursor on "PARAMETER WRITE" using the cursor move keys.
3. Press the [(OPRT)] soft key to display operation select soft
keys.
4. To set "PARAMETER WRITE=" to 1, press the [ON:1]
soft key, or alternatively enter 1 and press the [INPUT] soft key. From now on, the parameters can be set. At the same time an alarm condition (P/S100 PARAMETER WRITE ENABLE) occurs in the CNC.
(3) To display the parameter screen, press the SYSTEM function key as
many times as required, or alternatively press the SYSTEM function key once, then the [PARAM] section select soft key.
(See Chapter 1 "DISPLAYING PARAMETERS.") (4) Display the page containing the parameter you want to set, and
position the cursor on the parameter. (See Chapter 1 "DISPLAYING PARAMETERS.")
B-63530EN/03 2.SETTING PARAMETERS FROM MDI
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(5) Enter data, then press the [INPUT] soft key. The parameter indicated by the cursor is set to the entered data.
[Example] 12000 [INPUT]
Data can be entered continuously for parameters, starting at
the selected parameter, by separating each data item with a semicolon (;).
[Example] Entering 10;20;30;40 and pressing the [INPUT] key assigns
values 10, 20, 30, and 40 to parameters in order starting at the parameter indicatedby the cursor.
(6) Repeat steps (4) and (5) as required. (7) If parameter setting is complete, set "PARAMETER WRITE="
to 0 on the setting screen to disable further parameter setting. (8) Reset the NC to release the alarm condition (P/S100). If an alarm condition (P/S000 PLEASE TURN OFF POWER)
occurs in the NC, turn it off before continuing operation.
3.INPUTTING AND OUTPUTTING PARAMETERS THROUGH THE READER/PUNCHER INTERFACE B-63530EN/03
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3 INPUTTING AND OUTPUTTING PARAMETERS THROUGH THE READER/PUNCHER INTERFACE
This section explains the parameter input/output procedures for input/output devices connected to the reader/puncher interface. The following description assumes the input/output devices are ready for input/output. It also assumes parameters peculiar to the input/output devices, such as the baud rate and the number of stop bits, have been set in advance. (See Section 4.2.)
B-63530EN/03 3.INPUTTING AND OUTPUTTING PARAMETERS THROUGH THE READER/PUNCHER INTERFACE
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3.1 OUTPUTTING PARAMETERS THROUGH THE READER/PUNCHER INTERFACE
(1) Select the EDIT mode or set to Emergency stop. (2) To select the parameter screen, press the SYSTEM function key as
many times as required, or alternatively press the SYSTEM function key once, then the [PARAM] section select soft key.
(3) Press the [(OPRT)] soft key to display operation select soft keys, then press the forward menu key located at the right-hand side of the soft keys to display another set of operation select keys including [PUNCH].
(4) Pressing the [ALL] or [NON-0]soft key changes the soft key
display as shown below:
(5) Pressing the [PUNCH] soft key changes the soft key display as
shown below:
(6) Press the [EXEC] soft key to start parameter output. When
parameters are being output, "OUTPUT" blinks in the state display field on the lower part of the screen.
(7) When parameter output terminates, "OUTPUT" stops blinking.
Press the RESET key to interrupt parameter output.
3.INPUTTING AND OUTPUTTING PARAMETERS THROUGH THE READER/PUNCHER INTERFACE B-63530EN/03
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3.2 INPUTTING PARAMETERS THROUGH THE READER/PUNCHER INTERFACE
(1) Place the NC in the emergency stop state. (2) Enable parameter writing.
1. To display the setting screen, press the OFFSET SETTING function key
as many times as required, or alternatively press the OFFSETSETTING function key once, then the [SETTING] section select soft key. The first page of the setting screen appears.
2. Position the cursor on "PARAMETER WRITE" using the cursor move keys.
3. Press the [(OPRT)] soft key to display operation select soft keys.
4. To set "PARAMETER WRITE=" to 1, press the ON:1 soft key, or alternatively enter 1, then press the [INPUT] soft key. From now on, parameters can be set. At the same time an alarm condition (P/S100 PARAMETER WRITE ENABLE) occurs in the NC.
(3) To select the parameter screen, press the SYSTEM function key as
many times as required, or alternatively press the SYSTEM key once, then [PARAM] soft key.
(4) Press the [(OPRT)] soft key to display operation select keys, then press the forward menu key located at the right-hand side of the soft keys to display another set of operation select soft keys including [READ].
(5) Pressing the [READ] soft key changes the soft key display as
shown below:
(6) Press the [EXEC] soft key to start inputting parameters from the
input/output device. When parameters are being input, "INPUT" blinks in the state display field on the lower part of the screen.
(7) When parameter input terminates, "INPUT" stops blinking. Press
the RESET key to interrupt parameter input. (8) When parameter read terminates, "INPUT" stops blinking, and
an alarm condition (P/S000) occurs in the NC. Turn it off before continuing operation.
B-63530EN/03 4.DESCRIPTION OF PARAMETERS
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4 DESCRIPTION OF PARAMETERS Parameters are classified by data type as follows:
Table 4 Data Types and Valid Data Ranges of Parameters Data type Valid data range Remarks
Bit Bit axis
0 or 1
Byte Byte axis
-128 to 127 0 to 255
In some parameters, signs are ignored.
Word Word axis
-32768 to 32767 0 to 65535
In some parameters, signs are ignored.
2-word 2-word axis
-99999999 to 99999999
NOTE 1 For the bit type and bit axis type parameters, a
single data number is assigned to 8 bits. Each bit has a different meaning.
2 The axis type allows data to be set separately for each control axis.
3 The valid data range for each data type indicates a general range. The range varies according to the parameters. For the valid data range of a specific parameter, see the explanation of the parameter.
(1) Notation of bit type and bit axis type parameters
#7 #6 #5 #4 #3 #2 #1 #0
0000 SEQ INI ISO TVC (2) Notation of parameters other than bit type and bit axis type
1023 Number of the servo axis for each axis
Data No. Data #0 to #7 are bit positions.
Data No. Data.
4.DESCRIPTION OF PARAMETERS B-63530EN/03
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NOTE 1 The bits left blank in Chapter 4 DESCRIPTION OF
PARAMETERS and parameter numbers that appear on the display but are not found in the parameter list are reserved for future expansion. They must always be 0.
2 Parameters having different meanings between the T series and M series and parameters that are valid only for the T or M series are indicated in two levels as shown below. Parameters left blank are unavailable.
[Example1] Parameter No. 5010 has different meanings for the T
series and M series.
5010
Tool nose radius compensation ...Tool compensation C ...
T series
M series [Example2] DPI is a parameter common to the M and T series, but
GSB and GSC are parameters valid only for the T series.
3401
T series
M series
GSC GSB DPI
DPI
#7 #6 #0
[Example3] The following parameter is provided only for the M
series.
1450
F1 digit feed ...T series
M series
B-63530EN/03 4.DESCRIPTION OF PARAMETERS
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4.1 PARAMETERS OF SETTING
#7 #6 #5 #4 #3 #2 #1 #0
0000 SEQ INI ISO TVC At least one of these parameters can also be set on the Setting screen.
[Data type] Bit TVC TV check
0 : Not performed 1 : Performed
ISO Code used for data output 0 : EIA code 1 : ISO code
INI Unit of input 0 : In mm 1 : In inches
SEQ Automatic insertion of sequence numbers 0 : Not performed 1 : Performed When a program is prepared by using MDI keys in the part program storage and edit mode, a sequence number can automatically be assigned to each block in set increments. Set the increment to parameter No. 3216.
#7 #6 #5 #4 #3 #2 #1 #0
0001 FCV At least one of these parameters can also be set on the Setting screen.
[Data type] Bit FCV Tape format
0 : Series 16 standard format 1 : Series 15 format
NOTE 1 Programs created in the Series 15 tape format can
be used for operation on the following functions: (1) Subprogram call M98 (2) Threading with equal leads G32 (T series) (3) Canned cycle G90, G92, G94 (T series) (4) Multiple repetitive canned cycle G71 to G76 (T
series) (5) Drilling canned cycle G73, G74, G76, G80 to
G89 (M series) (6) Cutter compensation C (M series)
2 When the tape format used in the Series 15 is used for this CNC, some limits may add. Refer to the Series 16i/18i/160i/180i/160is/180is-MODEL B OPERATOR'S MANUAL.
4.DESCRIPTION OF PARAMETERS B-63530EN/03
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#7 #6 #5 #4 #3 #2 #1 #0
0002 SJZ RDG At least one of these parameters can also be set on the Setting screen.
[Data type] Bit RDG Remote diagnosis is
0 : Not performed. 1 : Performed. To use an RS-232C serial port for performing remote diagnosis, connect and setup the modem, cable, and the like, then set 1 in this parameter. When using a modem card, the setting is not necessary.
SJZ Manual reference position is performed as follows: 0 : When no reference position has been set, reference position
return is performed using deceleration dogs. When a reference position is already set, reference position return is performed using rapid traverse and deceleration dogs are ignored.
1 : Reference position return is performed using deceleration dogs at all times.
NOTE SJZ is enabled when bit 3 (HJZ) of parameter
No.1005 is set to 1. When a reference position is set without a dog, (i.e. when bit 1 (DLZ) of parameter No.1002 is set to 1 or bit 1 (DLZx) of parameter No.1005 is set to 1) reference position return after reference position setting is performed using rapid traverse at all times, regardless of the setting of SJZ.
#7 #6 #5 #4 #3 #2 #1 #0
RMVx AICx MIRx0012
RMVx MIRx At least one of these parameters can also be set on the Setting screen.
[Data type] Bit axis MIRx Mirror image for each axis
0 : Mirror image is off. 1 : Mirror image is on.
AICx The travel distance of an axis command is: 0 : Determined by the value specified with the address. 1 : Always handled as an incremental value.
RMVx Releasing the assignment of the control axis for each axis 0 : Not released 1 : Released
NOTE RMVx is valid when bit 7 (RMBx) of parameter No.
1005 is 1.
B-63530EN/03 4.DESCRIPTION OF PARAMETERS
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0020 I/O CHANNEL: Selection of an input/output device or selection of input
device in the foreground This parameter can also be set on the Setting screen.
[Data type] Byte [Valid data range] 0 to 35
The CNC provides the following interfaces for data transfer to and from the host computer and external input/output devices: Input/output device interface (RS-232C serial port 1 or 2) Remote buffer interface (RS-232C/RS-422) DNC1/DNC2 interface In addition, data can be transferred to and from the power mate CNC via the FANUC I/O Link. This parameter selects the interface used to transfer data to and from an input/output device.
Setting Description 0 or 1 RS-232C serial port 1
2 RS-232C serial port 2 3 Remote buffer interface 4 Memory card interface (NC side) 5 Data server interface
6 The DNC operation is performed or M198 is specified by FOCAS1/Ethernet or DNC1/Ethernet.
7 Memory card interface (touch panel side) 10 DNC1/DNC2 interface, OSI-Ethernet 12 DNC1 interface #2
15 M198 is specified by FOCAS1/HSSB. (Bit 1 (NWD) of parameter No. 8706) must also be specified.)
16 The DNC operation is performed or M198 is specified by FOCAS1/ HSSB (port 2).
20 21 22 to 34 35
Group 0 Group 1 Group 2 to Group 14 Group 15
Supplemental remark 1 If the DNC operation is performed with FOCAS1/HSSB, the
setting of parameter No. 20 does not matter. The DMMC signal is used.
Supplemental remark 2 If bit 0 (IO4) of parameter No. 110 is set to control the I/O
channels separately, the I/O channels can be divided into four types: input and output in the foreground and input and output in the background. If so, parameter No. 20 becomes a parameter for selecting the input device in the foreground.
Data is transferred between the CNC and a power mate CNC in group n (n: 0 to 15) via the FANUC I/O Link.
4.DESCRIPTION OF PARAMETERS B-63530EN/03
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NOTE 1 An input/output device can also be selected using the setting screen. Usually, the
setting screen is used. 2 The specifications (such as the baud rate and the number of stop bits) of the
input/output devices to be connected must be set in the corresponding parameters for each interface beforehand. (See Section 4.2.) I/O CHANNEL = 0 and I/O CHANNEL = 1 represent input/output devices connected to RS-232C serial port 1. Separate parameters for the baud rate, stop bits, and other specifications are provided for each channel.
Motherboard
RS-232C serial port 1 R232-1(JD36A)
RS-232C serial port 2R232-2(JD36B)
R422-1(JD6A)
R232-3(JD28A)
Serial communication board Remote buffer board DNC1 board DNC2 board
I/O CHANNEL=0, 1(Channel 1)
I/O CHANNEL=2(Channel 2)
I/O CHANNEL=3(Channel 3)
I/O CHANNEL=3(Channel 3)
RS-232-C I/O device
RS-232-C I/O device
RS-232-C I/O device (when a remote buffer or DNC2 board is used)
RS-422 I/O device (when a remote buffer or DNC1 board is used)
3 The input/output device interface may be referred to as the reader/puncher interface.
RS-232C serial port 1 and RS-232C serial port 2 are also referred to as channel 1 and channel 2, respectively. The remote buffer interface is also referred to as channel 3.
B-63530EN/03 4.DESCRIPTION OF PARAMETERS
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0021 Setting of the output device in the foreground
0022 Setting of the input device in the background
0023 Setting of the output device in the background These parameters can also be set on the Setting screen.
[Data type] Byte [Valid data range] 0 to 3, 5, 10
These parameters are valid only when bit 0 (IO4) of parameter No. 110 is set to control the I/O channels separately. The parameters set individual input/output devices if the I/O channels are divided into these four types: input and output in the foreground and input and output in the background. The input device in the foreground is set in parameter No. 20. For the details of the settings, see the table provided with the description of parameter No. 20.
NOTE If different input/output devices are simultaneously
used in the foreground and background, just a value from 0 to 3 can be specified for the background device.
If an attempt is made to use a busy input/output device, an alarm (P/S233 or BP/S233) will be raised. Note that the settings 0 and 1 indicate the same input/output device.
4.DESCRIPTION OF PARAMETERS B-63530EN/03
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4.2 PARAMETERS OF READER/PUNCHER INTERFACE OR REMOTE BUFFER
To exchange data (such as programs and parameters) with an external input/output device by using the input/output device interface (RS-232C serial port) or remote buffer interface, the parameters described below need to be set. In the setting parameter I/O CHANNEL, specify which of the input/output devices connected to the three channels (RS-232C serial port 1, RS-232C serial port 2, and remote buffer interface) is to be used. Furthermore, set the specifications (specification number, baud rate, the number of stop bits, and so forth) of the input/output device connected to each channel in the parameters corresponding to each channel beforehand. For setting of the specifications of channel 1, two sets of parameters are available. Fig. 4.2 shows the input/output device interface parameters corresponding to each channel.
Stop bit and other data
Number specified for the input/output
Baud rateI/O CHANNEL =0 : Channel 1 =1 : Channel 1 =2 : Channel 2 =3 : Channel 3
Specify a channel for an input/output device.
I/O CHANNEL=1 (channel 1)
No. 0020
I/O CHANNEL=0 (channel 1)
I/O CHANNEL=3 (channel 3)
I/O CHANNEL=2 (channel 2)
No. 0101
No. 0102
No. 0103
No. 0111
No. 0112
No. 0113
No. 0121
No. 0122
No. 0123
No. 0131
No. 0132
No. 0133
No. 0134
No. 0135
I/O CHANNEL
Input/output channel number (parameter No.0020)
Stop bit and other data
Number specified for the input/output
Baud rate
Stop bit and other data
Number specified for the input/output
Baud rate
Stop bit and other data
Number specified for the input/output
Baud rate
Selection of protocol
Selection of RS-422 or RS-232C, and other data
B-63530EN/03 4.DESCRIPTION OF PARAMETERS
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4.2.1 Parameters Common to all Channels
0024 Port for communication with the PMC ladder development tool (FANUC
LADDER-III)
This parameter can also be set on the Setting screen.
[Data type] Byte This parameter sets the port to be used for communication with the PMC ladder development tool (FANUC LADDER-III). 0 : According to the setting on the PMC online screen 1 : RS-232C serial port 1 (JD36A) 2 : RS-232C serial port 2 (JD36B) 10 : High-speed interface (HSSB (COP7) or Ethernet) 11 : High-speed interface or RS-232C serial port 1 12 : High-speed interface or RS-232C serial port 2
#7 #6 #5 #4 #3 #2 #1 #0
0100 ENS IOP ND3 NCR CRF CTV
[Data type] Bit CTV: Character counting for TV check in the comment section of a
program. 0 : Performed 1 : Not performed
CRF EOB (end of block) to be output in the ISO code: 0 : Depends on the setting of bit 3 (NCR) of parameter No. 100. 1 : is "CR""LF".
NOTE The EOB output patterns are as shown below:
NCR CRF EOB output format0 0 "LF" "CR" "CR" 0 1 "CR" "LF" 1 0 "LF"
1 1 "CR" "LF"
NCR Output of the end of block (EOB) in ISO code 0 : LF, CR, CR are output. 1 : Only LF is output.
4.DESCRIPTION OF PARAMETERS B-63530EN/03
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ND3 In DNC operation, a program is: 0 : Read block by block. (A DC3 code is output for each block.) 1 : Read continuously until the buffer becomes full. (A DC3 code is
output when the buffer becomes full.)
NOTE In general, reading is performed more efficiently
when ND3 set to 1. This specification reduces the number of buffering interruptions caused by reading of a series of blocks specifying short movements. This in turn reduces the effective cycle time.
IOP Specifies how to stop program input/output operations.
0 : An NC reset can stop program input/output operations. 1 : Only the [STOP] soft key can stop program input/output
operations. (A reset cannot stop program input/output operations.)
ENS Action taken when a NULL code is found during read of EIA code 0 : An alarm is generated. 1 : The NULL code is ignored.
#7 #6 #5 #4 #3 #2 #1 #0
0110 IO4
[Data type] Bit IO4 Separate control of I/O channel numbers is:
0 : Not performed. 1 : Performed. If the I/O channels are not separately controlled, set the input/output device in parameter No. 20. If the I/O channels are separately controlled, set the input device and output device in the foreground and the input device and output device in the background in parameters No. 20 to No. 23 respectively. Separate control of I/O channels makes it possible to perform background editing, program input/output, and the like during the DNC operation.
4.2.2 Parameters of Channel 1 (I/O CHANNEL=0)
#7 #6 #5 #4 #3 #2 #1 #0
NFD ASI SB2 0101
NFD ASI HAD SB2
[Data type] Bit SB2 The number of stop bits
0 : 1 1 : 2
B-63530EN/03 4.DESCRIPTION OF PARAMETERS
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HAD An alarm raised for the internal handy file is: 0 : Not displayed in detail on the NC screen. (PS alarm 86 is
displayed.) 1 : Displayed in detail on the NC screen.
ASI Code used at data input/output 0 : EIA or ISO code (Input: Automatic determination/Output:
Setting of bit 1 (ISO) of parameter No. 0000) 1 : ASCII code for both input and output
NOTE When using ASCII code for data input/output (when
setting ASI to 1), set also bit 1 (ISO) of parameter No. 0000 to 1.
NFD Feed before and after the data at data output
0 : Output 1 : Not output
NOTE When input/output devices other than the FANUC
PPR are used, set NFD to 1.
0102 Number specified for the input/output device (when the I/O CHANNEL is set
to 0)
[Data type] Byte
Set the number specified for the input/output device used when the I/O CHANNEL is set to 0, with one of the set values listed in Table 4.2.2 (a).
Table 4.2.2 (a) Set value Input/output device
0 RS-232C (Used control codes DC1 to DC4)
1 FANUC CASSETTE ADAPTOR 1 (FANUC CASSETTE B1/ B2)
2 FANUC CASSETTE ADAPTOR 3 (FANUC CASSETTE F1)
3 FANUC PROGRAM FILE Mate, FANUC FA Card Adaptor FANUC FLOPPY CASSETTE ADAPTOR, FANUC Handy File FANUC SYSTEM P-MODEL H
4 RS-232C (Not used control codes DC1 to DC4) 5 Portable tape reader
6 FANUC PPR FANUC SYSTEM P-MODEL G, FANUC SYSTEM P-MODEL H
4.DESCRIPTION OF PARAMETERS B-63530EN/03
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0103 Baud rate (when the I/O CHANNEL is set to 0)
[Data type] Byte Set baud rate of the input/output device used when the I/O CHANNEL is set to 0, with a set value in Table 4.2.2 (b).
Table 4.2.2 (b) Set value Baud rate (bps) Set value Baud rate (bps)
1 50 9 2400 2 100 10 4800 3 110 11 9600 4 150 12 19200 5 200 13 38400 6 300 14 57600 7 600 15 76800 8 1200
16 115200
4.2.3 Parameters of Channel 1 (I/O CHANNEL=1)
#7 #6 #5 #4 #3 #2 #1 #0
0111 NFD ASI SB2
[Data type] Bit These parameters are used when I/O CHANNEL is set to 1. The meanings of the bits are the same as for parameter No. 0101.
0112 Number specified for the input/output device (when I/O CHANNEL is set to 1)
[Data type] Byte Set the number specified for the input/output device used when the I/O CHANNEL is set to 1, with one of the set values listed in Table 4.2.2 (a).
0113 Baud rate (when I/O CHNNEL is set to 1)
[Data type] Byte Set the baud rate of the input/output device used when I/O CHANNEL is set to 1, with a value in Table 4.2.2 (b).
4.2.4 Parameters of Channel 2 (I/O CHANNEL=2)
#7 #6 #5 #4 #3 #2 #1 #0
0121 NFD ASI SB2
[Data type] Bit These parameters are used when I/O CHANNEL is set to 2. The meanings of the bits are the same as for parameter No. 0101.
B-63530EN/03 4.DESCRIPTION OF PARAMETERS
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0122 Number specified for the input/output device (when I/O CHANNEL is set to 2)
[Data type] Byte Set the number specified for the input/output device used when I/O CHANNEL is set to 2, with a value in Table 4.2.2 (a).
0123 Baud rate (when the I/O CHANNEL is set to 2)
[Data type] Byte Set the baud rate of the input/output device used when I/O CHANNEL is set to 2, with a value in Table 4.2.2 (b).
4.2.5 Parameters of Channel 3 (I/O CHANNEL=3)
#7 #6 #5 #4 #3 #2 #1 #0
0131 NFD ASI SB2
NOTE When at least one of these parameters is set, the
power must be turned off before operation is continued.
[Data type] Bit
These parameters are used when I/O CHANNEL is set to 3. The meanings of the bits are the same as for parameter No. 0101.
0132 Number specified for the input/output device (when I/O CHANNEL is set to 3)
NOTE When this parameter is set, the power must be
turned off before operation is continued.
[Data type] Byte Set the number specified for the input/output device used when I/O CHANNEL is set to 3, with a number in Table 4.2.2 (a).
4.DESCRIPTION OF PARAMETERS B-63530EN/03
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0133 Baud rate (when the I/O CHANNEL is set to 3)
NOTE When this parameter is set, the power must be
turned off before operation is continued.
[Data type] Byte Set the baud rate of the input/output device used when the I/O CHANNEL is set to 3 according to the table 4.2.5. Valid data range: 1 to 15 (up to a baud rate of 86400 bps) for the RS-422 interface or 1 to 12 (up to a baud rate of 19200 bps) for the RS-232C interface.
Table 4.2.5 Set value Baud rate (bps) Set value Baud rate (bps)
1 50 9 2400 2 100 10 4800 3 110 11 9600 4 150 12 19200 5 200 13 38400 6 300 14 76800 7 600 15 86400 8 1200
#7 #6 #5 #4 #3 #2 #1 #0
0134 CLK NCD SYN PRY
NOTE When at least one of these parameters is set, the
power must be turned off before operation is continued.
[Data type] Bit PRY Parity bit
0 : Not used 1 : Used
SYN Reset/alarm in protocol B 0 : Not reported to the host 1 : Reported to the host with SYN and NAK codes
NCD CD (signal quality detection) of the RS-232C interface 0 : Checked 1 : Not checked
CLK Baud rate clock when the RS-422 interface is used 0 : Internal clock 1 : External clock
NOTE When the RS-232C interface is used, set this bit to
0.
B-63530EN/03 4.DESCRIPTION OF PARAMETERS
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#7 #6 #5 #4 #3 #2 #1 #0
0135 RMS R42 PRA ETX ASC
NOTE When at least one of these parameters is set, the
power must be turned off before operation is continued.
[Data type] Bit ASC Communication code except NC data
0 : ISO code 1 : ASCII code
ETX End code for protocol A or extended protocol A 0 : CR code in ASCII/ISO 1 : ETX code in ASCII/ISO
NOTE Use of ASCII/ISO is specified by bit 0 (ASC) of
parameter No. 135.
PRA Communication protocol 0 : Protocol B 1 : Protocol A
R42 Interface 0 : RS-232C interface 1 : RS-422 interface
RMS State of remote/tape operation when protocol A is used 0 : Always 0 is returned. 1 : Contents of the change request of the remote/tape operation in
the SET command from the host is returned.
#7 #6 #5 #4 #3 #2 #1 #0
MDN OWN BIO FNL MDP 0138
MDN OWN FNL MDP
[Data type] Bit MDP In data output by a memory card, the series information is:
0 : Not added to the output file name. 1 : Added to the output file name.
FNL In data output by RS-232C of the loader control function, the series information is: 0 : Not added to the output file name. 1 : Added to the output file name.
BIO In multi-path control, NC data input/output via the memory card interface is: 0 : Controlled on a path-by-path basis. 1 : Controlled in a batch for all paths.
OWM When NC data or NC programs are punched to the memory card, a file overwrite confirmation message is: 0 : Displayed. 1 : Not displayed.
4.DESCRIPTION OF PARAMETERS B-63530EN/03
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MDN The DNC operation function by a memory card is: 0 : Disabled. 1 : Enabled. (A PCMCIA card attachment is required.)
NOTE Use a PCMCIA card attachment suited to the CNC
to secure the memory card in the CNC.
B-63530EN/03 4.DESCRIPTION OF PARAMETERS
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4.3 PARAMETERS OF DNC1/DNC2 INTERFACE
#7 #6 #5 #4 #3 #2 #1 #0
0140 ECD NCE BCC
NOTE When at least one of these parameters is set, the
power must be turned off before operation is continued.
[Data type] Bit BCC The BCC value (block check characters) is:
0 : Checked. 1 : Not checked. This parameter is dedicated to the DNC2 interface. Even if the BCC value is not checked, the BCC value itself must be specified.
NCE The ER (RS-232C) and TR (RS422) signals are: 0 : Checked. 1 : Not checked. This parameter is dedicated to the DNC2 interface.
ECD Error code of negative acknowledgment 0 : A four-digit hexadecimal error code is added to a negative
acknowledgment. 1 : No error code is added to a negative acknowledgment. This parameter is dedicated to the DNC2 interface.
NOTE To use FANUC DNC2 communications library for
the host computer, set this parameter to 1.
0141 System for connection between the CNC and host (DNC1 interface)
NOTE When this parameter is set, the power must be
turned off before operation is continued.
[Data type] Byte [Valid data range] 1 or 2
This parameter specifies the system for connection (DNC1 interface) between the CNC and host. Set value 1 : Point-to-point connection 2 : Multipoint connection
4.DESCRIPTION OF PARAMETERS B-63530EN/03
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0142 Station address of the CNC (DNC1 interface)
NOTE When this parameter is set, the power must be
turned off before operation is continued.
[Data type] Byte [Valid data range] 2 to 52
This parameter specifies the station address of the CNC when the CNC is connected via the DNC1 interface using multipoint connection.
0143 Time limit specified for the timer monitoring a response (DNC2 interface)
NOTE When this parameter is set, the power must be
turned off before operation is continued.
[Data type] Byte [Unit of data] sec [Valid data range] 1 to 60 (The standard setting is 3.)
0144 Time limit specified for the timer monitoring the EOT signal (DNC2 interface)
NOTE When this parameter is set, the power must be
turned off before operation is continued.
[Data type] Byte [Unit of data] sec [Valid data range] 1 to 60 (The standard setting is 5.)
0145 Time required for switching RECV and SEND (DNC2 interface)
NOTE When this parameter is set, the power must be
turned off before operation is continued.
[Data type] Byte [Unit of data] sec [Valid data range] 1 to 60 (The standard setting is 1.)
B-63530EN/03 4.DESCRIPTION OF PARAMETERS
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0146 Number of times the system retries holding communication (DNC2 interface)
NOTE When this parameter is set, the power must be
turned off before operation is continued.
[Data type] Byte [Unit of data] Number of times [Valid data range] 1 to 10 (The standard setting is 3.)
Set the maximum number of times the system retries holding communication with the remote device if the remote device uses an invalid protocol in the data-link layer or the remote device does not respond to the request.
0147 Number of times the system sends the message in response to the NAK
signal (DNC2 interface)
NOTE When this parameter is set, the power must be
turned off before operation is continued.
[Data type] Byte [Unit of data] Number of times [Valid data range] 1 to 10 (The standard setting is 2.)
Set the maximum number of times the system retries sending the message in response to the NAK signal.
0148 Number of characters in overrun (DNC2 interface)
NOTE When this parameter is set, the power must be
turned off before operation is continued.
[Data type] Byte [Valid data range] 10 to 225 (The standard setting is 10.)
Set the number of characters the system can receive after transmission is stopped (CS off).
4.DESCRIPTION OF PARAMETERS B-63530EN/03
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0149 Number of characters in the data section of the communication packet
(DNC2 interface)
NOTE When this parameter is set, the power must be
turned off before operation is continued.
[Data type] Word [Valid range] 80 to 256 (The standard setting is 256.)
If the specified value is out of range, a value of 80 or 256 is used. The standard setting is 256. This parameter determines the maximum length of the packet used in transmission over the DNC2 interface. Including the two characters at the start of the packet, the four characters used for a command, and the three characters at the end, the maximum number of characters in the packet is nine plus the number specified in parameter No.0149.
DLE STX Command Data section DEL ETX BCC
2 bytes 4 bytes 80 to 256 bytes 3 bytes
Length of the packet
B-63530EN/03 4.DESCRIPTION OF PARAMETERS
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4.4 PARAMETERS OF M-NET INTERFACE
#7 #6 #5 #4 #3 #2 #1 #0
0161 SRS PEO SRP SRL
NOTE When at least one of these parameters is set, the
power must be turned off before operation is continued.
[Data type] Bit SRL Number of characters used in the serial interface
0 : Seven bits 1 : Eight bits
SRP Vertical parity in the serial interface 0 : Vertical parity is not checked. 1 : Vertical parity is checked.
PEO Either odd or even parity is used for vertical parity in the serial interface 0 : Odd parity is used. 1 : Even parity is used.
NOTE This bit is effective when bit SRP is set to 1.
SRS Stop bit in the serial interface
0 : One stop bit is used. 1 : Two stop bits are used.
0171 Length of DI data in bytes in M-NET
NOTE When this parameter is set, the power must be
turned off before operation is continued.
[Data type] Byte [Valid range] 1 to 32
Specify the length of DI data in bytes (number of byte of data actually transferred from the PLC unit to the CNC unit) in the serial interface.
4.DESCRIPTION OF PARAMETERS B-63530EN/03
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0172 Length of DO data in bytes in M-NET
NOTE When this parameter is set, the power must be
turned off before operation is continued.
[Data type] Byte [Valid range] 1 to 32
Specify the length of DO data in bytes (number of bytes of data actually transferred from the CNC unit to the PLC unit) in the serial interface.
NOTE When a self-loop test is performed, specify the
same value in parameters No.0171 and No.0172.
0173 Station address in M-NET
NOTE When this parameter is set, the power must be
turned off before operation is continued.
[Data type] Byte [Valid range] 1 to 15
Specify a station address in the serial interface.
0174 Baud rate in M-NET
NOTE When this parameter is set, the power must be
turned off before operation is continued.
[Data type] Byte [Valid range] 0 to 6 (The standard setting is 3.)
Specify a baud rate for the serial interface.
Set value Baud rate (bps)1 2400 2 4800 3 9600 4 19200 5 38400 6 57600 7 76800
B-63530EN/03 4.DESCRIPTION OF PARAMETERS
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0175 Time required for connecting two stations in M-NET
NOTE When this parameter is set, the power must be
turned off before operation is continued.
[Data type] Word [Unit of data] msec [Valid range] 1 to 32767 (The standard setting is 10000.)
Specify a time limit from when the connection sequence is completed for the self-station to when the normal transfer sequence starts in the serial interface.
0176 Time required for polling in M-NET
NOTE When this parameter is set, the power must be
turned off before operation is continued.
[Data type] Word [Unit of data] msec [Valid data range] 1 to 32767 (The standard setting is 500.)
Specify a time limit for polling in the normal sequence at the self-station in the serial interface.
0177 Time required from SAI to BCC in M-NET
NOTE When this parameter is set, the power must be
turned off before operation is continued.
[Data type] Word [Unit of data] msec [Valid data range] 1 to 32767 (The standard setting is 50.)
Specify a time limit from when the SAI signal starts to be transferred to when the BCC signal has been sent.
0178 Time between a reception and the next transmission in M-NET
NOTE When this parameter is set, the power must be
turned off before operation is continued.
[Data type] Word [Unit of data] msec [Valid data range] 1 to 32767 (The standard setting is 1.)
Specify the time from when data has been received to when the next data starts to be transmitted.
4.DESCRIPTION OF PARAMETERS B-63530EN/03
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4.5 PARAMETERS OF REMOTE DIAGNOSIS
#7 #6 #5 #4 #3 #2 #1 #0
0002 RDG
[Data type] Bit RDG Remote diagnosis is:
0 : Not performed. 1 : Performed. If an RS-232C serial port is used to carry out remote diagnosis, connect and set up the modem, cable, and the like, then set 1 in this parameter. When using a modem card, the setting is not necessary.
#7 #6 #5 #4 #3 #2 #1 #0
0201 MCB NCR ASC SB2
[Data type] Bit SB2 The number of stop bits is
0 : 1. 1 : 2. To carry out remote diagnosis, set 0.
ASC The code to be used for data output is: 0 : ISO code. 1 : ASCII code. To carry out remote diagnosis, set 1.
NCR EOB (end of block) is output as: 0 : "LF""CR""CR". 1 : Just as "LF". To carry out remote diagnosis, set 1.
MCB The baud rate setting for data input/output between the modem card and CNC is: 0 : 9600 bps (fixed). 1 : Determined by the setting of parameter No. 203. For the detailed setting while MCB is set to 1, see parameter No. 203.
B-63530EN/03 4.DESCRIPTION OF PARAMETERS
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0203 Baud rate (for remote diagnosis)
[Data type] Byte Set the baud rate of data input/output by remote diagnosis, with reference to the tables given below. When using an RS-232C serial port
Set value Baud rate (bps) Set value Baud rate (bps)1 50 7 600 2 100 8 1200 3 110 9 2400 4 150 10 4800 5 200 11 9600 6 300
12 19200 When using a modem card (when bit 6 (MCB) of parameter No. 201 is set to 1)
Set value Baud rate (bps) Set value Baud rate (bps)1 28800 7 600 2 38400 8 1200 3 57600 9 2400 4 - 10 4800 5 - 11 9600 6 300
12 19200
NOTE The tables above indicate the baud rates of
communication between the CNC and modem. The actual communication baud rate may be lowered, depending on the modem and communication line.
0204 Remote diagnosis channel
[Data type] Byte [Valid data range] 0, 1, 2
The interface to be used for remote diagnosis is: 0,1 : RS-232C serial port 1 (channel 1). 2 : RS-232C serial port 2 (channel 2). To carry out remote diagnosis using RS-232C, the reader/puncher interface is required.
4.DESCRIPTION OF PARAMETERS B-63530EN/03
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0211 Password 1 for remote diagnosis
0212 Password 2 for remote diagnosis
0213 Password 3 for remote diagnosis
[Data type] 2-word [Valid data range] 1 to 99999999
Specify a password for using the remote diagnosis function. The remote diagnosis function has the following password settings. Data can be protected by preventing a third party from accessing any system parameter or machining program without permission. Password 1: Set a password for the whole service of the remote diagnosis
function. (The whole remote diagnosis service is available only when this password is input on the host side (PC, for instance).)
Password 2: Set a password of a part program. (The input/output, verification,
and the like of a program are possible only when this password is input on the host side (PC, for instance).)
Password 3: Set a password of a parameter. (The input/output or the like of a
parameter is possible only when this password is input on the host side (PC, for instance).)
NOTE Once any value other than 0 is specified as a
password, the password can be changed only when the same value is specified in the corresponding keyword (parameters No. 221 to No. 223). If any value other than 0 is specified as a password, the password setting is not displayed on the parameter screen (blank display is provided). Take great care when setting the password.
B-63530EN/03 4.DESCRIPTION OF PARAMETERS
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0221 Keyword 1 for remote diagnosis
0222 Keyword 2 for remote diagnosis
0223 Keyword 3 for remote diagnosis
[Data type] 2-word [Valid range] 1 to 99999999
Set a keyword corresponding to a password of the remote diagnosis function. Keyword 1: Keyword for password 1 (parameter No. 211) Keyword 2: Keyword for password 2 (parameter No. 212) Keyword 3: Keyword for password 3 (parameter No. 213) If any value other than 0 is specified as a password (parameters No. 211 to No. 213), the password can be changed only when the same value is specified as the corresponding keyword.
NOTE The keyword value is reset to 0 at power-up. On
the parameter screen, the keyword setting is not displayed (blank display is provided).
4.DESCRIPTION OF PARAMETERS B-63530EN/03
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4.6 PARAMETERS OF DNC1 INTERFACE #2
#7 #6 #5 #4 #3 #2 #1 #0
0231 NFD ASI SB2
NOTE When at least one of these parameters is set, the
power must be turned off before operation is continued.
[Data type] Bit SB2 Number of stop bits
0 : 1 bit 1 : 2 bits
ASI Data input code 0 : IEA or ISO (automatic recognition) 1 : ASCII Code
NFD When data is out, feed holes are 0 : Output before and after data section 1 : Not output
0233 Baud rate (DNC1 interface #2)
NOTE When this parameter is set, the power must be
turned off before operation is continued.
[Data type] Byte [Valid data range] 1 to 15
Specify a baud rate.
Set value Baud rate (bps) Set value Baud rate (bps)1 50 9 2400 2 100 10 4800 3 110 11 9600 4 150 12 19200 5 200 13 38400 6 300 14 76800 7 600 15 86400 8 1200
B-63530EN/03 4.DESCRIPTION OF PARAMETERS
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0241 Mode of connection between the host and CNC (DNC1 interface #2)
NOTE When this parameter is set, the power must be
turned off before operation is continued.
[Data type] Byte [Valid data range] 1 or 2
This parameter sets the mode of connection between the host and CNC.
Setting Mode 1 Point-to-point mode2 Multipoint mode
0242 CNC station address (DNC 1 interface #2)
NOTE When this parameter is set, the power must be
turned off before operation is continued.
[Data type] Byte [Valid data range] 2 to 52
This parameter sets a CNC station address when the CNC is to be connected in the multipoint mode.
4.DESCRIPTION OF PARAMETERS B-63530EN/03
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4.7 PARAMETERS OF MEMORY CARD INTERFACE
#7 #6 #5 #4 #3 #2 #1 #0
0300 PCM
[Data type] Bit PCM If the CNC screen display function is enabled, when a memory card
interface is provided on the NC side, 0 : The memory card interface on the NC side is used. 1 : The memory card interface on the PC side is used. This parameter is valid when 4 (memory card interface) is set in parameter No. 20. This parameter is valid only while the CNC screen display function is active.
B-63530EN/03 4.DESCRIPTION OF PARAMETERS
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4.8 PARAMETERS OF FACTOLINK
#7 #6 #5 #4 #3 #2 #1 #0
0801 SB2
[Data type] Bit SB2 The number of stop bits is:
0 : 1 bit. 1 : 2 bits. (Set the number of stop bits when an RS-232C port is specified as the FACTOLINK communication port.)
0802 Communication channel for the FACTOLINK
[Data type] Byte Set the communication port for use with the FACTOLINK. 1 : RS-232C serial port 1 2 : RS-232C serial port 2 11 : Ethernet board port 1 12 : Ethernet board port 2 13 : Ethernet board port 3 21 : Embedded Ethernet
0803 Communication baud rate for the FACTOLINK
[Data type] Byte Set the communication baud rate when an RS-232C port is specified as the FACTOLINK communication port. 10 : 4800 bps 11 : 9600 bps 12 : 19200 bps (Recommendation value)
#7 #6 #5 #4 #3 #2 #1 #0
0810 FMN FTM FYR FCL FAS BGS
[Data type] Bit BGS When the FACTOLINK screen is not displayed, FACTOLINK alarm
task communication is: 0 : Not activated. 1 : Activated.
FAS If FACTOLINK uses the Answer or AnswerEx command, the answer number A01. is: 0 : Displayed in the answer field. 1 : Not displayed in the answer field.
FCL The FACTOLINK clock is: 0 : Not displayed in reverse video. 1 : Displayed in reverse video.
4.DESCRIPTION OF PARAMETERS B-63530EN/03
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FYR In the FACTOLINK clock display, years in the 99/01/23 00:00 format (bit 4 (FTM) of parameter No. 0810 set to 1) are represented: 0 : By a two-digit number. 1 : By a four-digit number.
FTM The FACTOLINK clock is displayed in this format: 0 : Wed Nov 12 00:00:00 1 : 97/11/12 00:00:00
FMN The FACTOLINK screen is displayed: 0 : In color. 1 : With two levels of gray.
0811 Logging type for the FACTOLINK
[Data type] Byte
0812 PMC address of logging data for the FACTOLINK
[Data type] Word
0813 Logging data length for the FACTOLINK
[Data type] Word
0814 Logging wait address for the FACTOLINK
[Data type] Word
0815 FACTOLINK logging data transmission interval
[Data type] 2-word
0820 FACTOLINK device address (1)
0821 FACTOLINK device address (2)
0822 FACTOLINK device address (3)
0823 FACTOLINK device address (4)
0824 FACTOLINK device address (5)
0825 FACTOLINK device address (6)
0826 FACTOLINK device address (7)
0827 FACTOLINK device address (8)
0828 FACTOLINK device address (9)
[Data type] Byte See following manuals for the parameters related to the FACTOLINK. FANUC Ethernet Board/DATA SERVER Board OPARATOR'S
MANUAL (B-63354EN) FANUC FACTOLINK SCRIPT FUNCTION OPERATOR'S
MANUAL (B-75054EN)
B-63530EN/03 4.DESCRIPTION OF PARAMETERS
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4.9 PARAMETERS OF DATA SERVER
#7 #6 #5 #4 #3 #2 #1 #0
0900 ONS DSV
[Data type] Bit DSV The data server function is
0 : Enabled 1 : Disabled
ONS When the O number of the data server file name and the O number in an NC program do not match: 0 : The O number of the file name takes priority. 1 : The O number in the NC program takes priority.
0921 OS selected for host computer 1 of data server
0922 OS selected for host computer 2 of data server
0923 OS selected for host computer 3 of data server
[Data type] Word [Valid data range] 0 to 1
0 : Windows95/98/NT is selected. 1 : UNIX or VMS is selected.
0924 Latency setting for DNC1/Ethernet or FOCAS1/Ethernet
[Data type] Word [Unit of data] msec [Valid data range] 0 to 255
Set service latency of DNC1/Ethernet or FOCAS1/Ethernet while DNC1/Ethernet or FOCAS1/Ethernet is used together with the data server function. If a value between 0 and 2 is set, 2 msec is assumed.
4.DESCRIPTION OF PARAMETERS B-63530EN/03
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4.10 PARAMETERS OF ETHERNET
0931 Special character code corresponding to soft key [CHAR-1]
0932 Special character code corresponding to soft key [CHAR-2]
0933 Special character code corresponding to soft key [CHAR-3]
0934 Special character code corresponding to soft key [CHAR-4]
0935 Special character code corresponding to soft key [CHAR-5]
[Data type] Byte [Valid data range] 32 to 95
These parameters are provided to allow a special character that is not provided on the MDI panel but needed in a user name, password, or login DIR to be input by pressing a soft key on the Ethernet parameter screen. If a value other than 0 is input as a parameter, the special character assigned to the corresponding input soft key [CHAR-1] to [CHAR-5] is displayed. The special character codes correspond to the ASCII codes.
Sample special character codes Special
character Code Special
character Code Special
character Code
Blank 32 ) 41 < 60 ! 33 * 42 > 62 " 34 + 43 ? 63 # 35 , 44 @ 64 $ 36 - 45 [ 91 % 37 . 46 ^ 92 & 38 / 47 # 93 ' 39 : 58 ] 94 ( 40 ; 59 _ 95
B-63530EN/03 4.DESCRIPTION OF PARAMETERS
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4.11 PARAMETERS OF POWER MATE CNC MANAGER
#7 #6 #5 #4 #3 #2 #1 #0
0960 2CH ASG SPW PMN MD2 MD1 SLV
[Data type] Bit SLV When the power mate CNC manager is selected, the screen displays:
0 : One slave. 1 : Up to four slaves with the screen divided into four.
MD1,MD2 These parameters set a slave parameter input/output destination. MD2 MD1 Input/output destination
0 0 Part program storage 0 1 Memory card
In either case, slave parameters are output in program format. PMN The power mate CNC manager function is:
0 : Enabled. 1 : Disabled. (Communication with slaves is not performed.)
SPW With the power mate CNC manager, slave parameters: 0 : Can be set at all times, regardless of the setting of PWE. 1 : Follow the setting of PWE.
ASG Whether the number of bytes allocated to the input/output destination of the amplifier with the I/O Link is 16 is: 0 : Not checked. 1 : Checked.
2CH The power mate CNC manager communicates with: 0 : Channel 2 1 : Channel 1
NOTE 1 This parameter is valid only when I/O Link point
extension (to 2 channels) is supported. 2 Even when this parameter is set to 0, the power
mate CNC manager communicates with channel 1 if no amplifier with the I/O Link is connected with channel 2.
3 When this parameter is set to 1, the power mate CNC manager does not communicate with channel 2 if no amplifier with the I/O Link is connected with channel 1.
4.DESCRIPTION OF PARAMETERS B-63530EN/03
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4.12 PARAMETERS OF AXIS CONTROL/INCREMENT SYSTEM
#7 #6 #5 #4 #3 #2 #1 #0
1001 INM
NOTE When at least one of these parameters is set, the
power must be turned off before operation is continued.
[Data type] Bit INM Least command increment on the linear axis
0 : In mm (metric system machine) 1 : In inches (inch system machine)
#7 #6 #5 #4 #3 #2 #1 #0
IDG XIK SFD DLZ JAX 1002
IDG XIK AZR SFD DLZ JAX
[Data type] Bit JAX Number of axes controlled simultaneously in jog feed, manual rapid
traverse and manual reference position return 0 : 1 axis 1 : 3 axes
DLZ Function setting the reference position without dog 0 : Disabled 1 : Enabled (enabled for all axes)
NOTE 1 This function can be specified for each axis by bit 1
(DLZx) of parameter No.1005. 2 For a system including an axis of Cs contour
control or spindle positioning, avoid using this parameter. Use bit 1 (DLZx) of parameter No. 1005 instead to set just a required axis.
SFD The function for shifting the reference position is
0 : Not used. 1 : Used.
B-63530EN/03 4.DESCRIPTION OF PARAMETERS
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AZR When no reference position is set, the G28 command causes: 0 : Reference position return using deceleration dogs (as during
manual reference position return) to be executed. 1 : P/S alarm No.090 to be issued.
NOTE When the function for setting the reference position
without dogs (refer to bit 1 (DLZ) of parameter No. 1002) is used, the G28 command specified before a reference position is set causes P/S alarm No.090 to be issued, regardless of the setting of AZR.
XIK When bit 1 (LRP) of parameter No.1401, is set to 0, namely, when
positioning is performed using non-linear type positioning, if an interlock is applied to the machine along one of axes in positioning, 0 : The machine stops moving along the axis for which the interlock
is applied and continues to move along the other axes. 1 : The machine stops moving along all the axes.
IDG When the reference position is set without dogs, automatic setting of bit 0 (IDGx) of parameter No.1012 to prevent the reference position from being set again is: 0 : Not performed. 1 : Performed.
#7 #6 #5 #4 #3 #2 #1 #0
IPR ISD ISC 1004
IPR IPI ISC ISA
NOTE When at least one of these parameters is set, the
power must be turned off before operation is continued.
[Data type] Bit ISA, ISC, ISD The least input increment and least command increment are set.
ISD ISC ISA Least input increment and least command increment Symbol
0 0 0 0.001 mm, 0.001 deg, or 0.0001 inch IS-B 0 0 1 0.01 mm, 0.01 deg, or 0.001 inch IS-A 0 1 0 0.0001 mm, 0.0001 deg, or 0.00001 inch IS-C 1 0 0 0.00001 mm, 0.00001 deg, or 0.000001 inch IS-D
NOTE IS-A cannot be used at present.
4.DESCRIPTION OF PARAMETERS B-63530EN/03
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IPI Bit 7 (IPR) of parameter No. 1004 is: 0 : Parameter that requires the power to be turned off before
continuation of operation and is invalid in the case of inch input. 1 : Parameter that does not require the power to be turned off before
continuation of operation and is valid even in the case of inch input.
IPR Whether the least input increment for each axis is set to a value 10 times as large as the least command increment is specified, in increment systems of IS-B or IS-C at setting mm. 0 : The least input increment is not set to a value 10 times as larg as
the least command increment. 1 : The least input increment is set to a value 10 times as large as the
least command increment. If IPR is set to 1, the least input increment is set as follows:
Increment system Least input increment IS-B 0.01 mm, 0.01 deg, or 0.0001 inch IS-C 0.001 mm, 0.001 deg, or 0.00001 inch
NOTE For IS-A, the least input increment cannot be set to
a value 10 times as large as the least command increment.
The least input increment is not multiplied by 10 also when the pocket calculator type decimal point programming (bit 0 (DPI) of parameter No. 3401) is used.
B-63530EN/03 4.DESCRIPTION OF PARAMETERS
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#7 #6 #5 #4 #3 #2 #1 #0
1005 RMBx MCCx EDMx EDPx HJZx DLZx ZRNx
[Data type] Bit axis ZRNx When a command specifying the movement except for G28 is issued
in automatic operation (memory, MDI, or DNC operation) and when a return to the reference position has not been performed since the power was turned on 0 : An alarm is generated (P/S alarm 224). 1 : An alarm is not generated.
NOTE 1 The state in which the reference position has not
been established refers to that state in which reference position return has not been performed after power-on when an absolute position detector is not being used, or that state in which the association of the machine position with the position detected with the absolute position detector has not been completed (see the description of bit 4 (APZx) of parameter No. 1815) when an absolute position detector is being used.
2 To use a function that establishes the reference point and makes a movement with a command other than G28, such as an axis of Cs contour control, set this parameter for the relative axis.
3 When the Cs axis coordinate establishment function (bit 2 (CSF) of parameter No. 3712) is used, it is recommended to set this parameter to 0.
DLZx Function for setting the reference position without dogs
0 : Disabled 1 : Enabled
NOTE 1 This parameter is valid when bit 1 (DLZ) of
parameter No. 1002 is set to 0. When bit 1 (DLZ) of parameter No. 1002 is set to 1, the function for setting the reference position without dogs is enabled for all axes, regardless of the setting of this parameter.
2 Do not set this parameter for a Cs contour control axis and spindle positioning axis.
4.DESCRIPTION OF PARAMETERS B-63530EN/03
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HJZx When a reference position is already set: 0 : Manual reference position return is performed with deceleration
dogs. 1 : Manual reference position return is performed using rapid
traverse without deceleration dogs, or manual reference position return is performed with deceleration dogs, depending on the setting of bit 7 (SJZ) of parameter No.0002.
NOTE When the function for setting the reference position
without dogs (refer to bit 1 (DLZ) of parameter No. 1002) is used, positioning at the reference position is performed at the rapid traverse rate at all times in reference position return operation after reference position establishment, regardless of the setting of HJZ.
EDPx External deceleration signal in the positive direction for each axis
0 : Valid only for rapid traverse 1 : Valid for rapid traverse and cutting feed
EDMx External deceleration signal in the negative direction for each axis 0 : Valid only for rapid traverse 1 : Valid for rapid traverse and cutting feed
MCCx When an axis become the removal state using the controlled axis removal signal or setting: 0 : MCC is turned off 1 : MCC is not turned off. (Servo motor excitation is turned off, but
the MCC signal of the servo amplifier is not turned off.)
NOTE This parameter is used to remove only one axis, for
example, when a two-axis or three-axis amplifier is used. When two-a axis or three-axis amplifier is used and only one axis is removed, servo alarm No.401 (V-READY OFF) is usually issued. However, this parameter, when set to 1, prevents servo alarm No.401 from being issued.
Note, however, that disconnecting a servo amplifier from the CNC will cause the servo amplifier to enter the V-READY OFF status. This is a characteristic of all multiaxis amplifiers.
RMBx Releasing the assignment of the control axis for each axis (signal input
and setting input) 0 : Invalid 1 : Valid
B-63530EN/03 4.DESCRIPTION OF PARAMETERS
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#7 #6 #5 #4 #3 #2 #1 #0
ZMIx DIAx ROSx ROTx1006
ZMIx ROSx ROTx
NOTE When at least one of these parameters is set, the
power must be turned off before operation is continued.
[Data type] Bit axis ROTx, ROSx Setting linear or rotary axis.
ROSx ROTx Meaning
0 0
Linear axis (1) Inch/metric conversion is done. (2) All coordinate values are linear axis type. (Is not rounded in 0 to 360.) (3) Stored pitch error compensation is linear axis type (Refer to parameter No.3624.)
0 1
Rotary axis (A type) (1) Inch/metric conversion is not done. (2) Machine coordinate values are rounded in 0 to 360.
Absolute coordinate values or relative coordinate values are rounded or not rounded by bit 0 (ROAx) or bit 2 (RRLx) of parameter No. 1008.
(3) Stored pitch error compensation is the rotation type. (Refer to parameter No.3624)
(4) Automatic reference position return (G28, G30) is done in the reference position return direction and the move amount does not exceed one rotation.
1 0 Setting is invalid (unused)
1 1
Rotary axis (B type) (1) Inch/metric conversion, absolute coordinate values and
relative coordinate values are not done. (2) Machine coordinate values, absolute coordinate values,
and relative coordinate values are linear axis type. (Is not rounded in 0 to 360.)
(3) Stored pitch error compensation is linear axis type (Refer to parameter No.3624.)
(4) Cannot be used with the rotary axis roll-over function and the index table indexing function (M series).
For the rotary axis used for cylindrical interpolation, set ROTx to 1. For the C-axis (workpiece axis) used with the hobbing function, be sure to set ROTx to 1.
DIAx Either a diameter or radius is set to be used for specifying the amount of travel on each axis. 0 : Radius 1 : Diameter
4.DESCRIPTION OF PARAMETERS B-63530EN/03
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ZMIx The direction of reference position return on each axis. 0 : Positive direction 1 : Negative direction
NOTE The direction of the initial backlash, which occurs
when power is switched on, is opposite to the direction of a reference position return.
#7 #6 #5 #4 #3 #2 #1 #0
PRSx RAAx OKIx ALZx RTLx1007
RAAx OKIx
[Data type] Bit axis RTLx A reference position return operation performed on a rotary axis is of:
0 : Rotary axis type. 1 : Linear axis type.
NOTE Reference position return operations of rotary axis
type and linear axis type differ from each other as follows, depending on the timing for pressing a dog (deceleration signal for reference position return):
Linear axis type: If a dog is pressed before a one-rotation signal is detected, P/S alarm No. 090 is issued.
Rotation type axis: If a dig is pressed before a one-rotation signal is detected, reference position return operation is continued with no alarm issued.
ALZx In automatic reference position return:
0 : A reference position return operation is performed by positioning. If no reference position return operation is performed after power-on, a reference position return operation is performed according to the same sequence as for manual reference position return.
1 : A reference position return operation is performed according to the same sequence as for manual reference position return.
NOTE This parameter does not affect an axis on which a
reference position return operation is performed without dogs.
B-63530EN/03 4.DESCRIPTION OF PARAMETERS
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OKIx Upon completion of reference position return in reference position setting with mechanical stopper: 0 : P/S alarm 000 is issued. (When reference position setting with mechanical stopper is used
with this parameter setting, an absolute-position detector is needed.)
1 : P/S alarm 000 is not issued. (Even when reference position setting with mechanical stopper is
used with this parameter setting, no absolute-position detector is needed.)
RAAx When an absolute command is specified for a rotary axis: 0 : The end point coordinates and direction of rotation conform to
bit 1 (RABx) of parameter No.1008. 1 : The end point coordinates conform to the absolute value of the
value specified in the command. The rotational direction conforms to the sign of the value specified in the command.
NOTE 1 This parameter is valid when the rotary axis control
function is provided and the rotary axis roll-over function is applied (bit 0 (ROAx) of parameter No.1008 is set to 1).
2 This parameter is equal to bit 3 (RAAx) of parameter No.1008. After this parameter is set, the power does not need to be turned off.
PRSx In automatic reference position return (G28), automatic coordinate
system presetting is: 0 : Not performed. 1 : Performed.
#7 #6 #5 #4 #3 #2 #1 #0
1008 RMCx RAAx RRLx RABx ROAx
NOTE When at least one of these parameters is set, the
power must be turned off before operation is continued.
[Data type] Bit axis ROAx The rotary axis roll-over function is
0 : Invalid 1 : Valid
NOTE ROAx specifies the function only for a rotary axis
(for which bit 0 (ROTx) of parameter No.1006 is set to 1)
4.DESCRIPTION OF PARAMETERS B-63530EN/03
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RABx In the absolute commands, the axis rotates in the direction 0 : In which the distance to the target is shorter. 1 : Specified by the sign of command value.
NOTE RABx is valid only when ROAx is set to 1.
RRLx Relative coordinates are
0 : Not rounded by the amount of the shift per one rotation 1 : Rounded by the amount of the shift per one rotation
NOTE 1 RRLx is valid only when ROAx is set to 1. 2 Assign the amount of the shift per one rotation in
parameter No.1260.
RAAx The rotation direction of a rotary axis and end point coordinates in the absolute command mode: 0 : Agree with the setting of bit 1 (RABx) of parameter No.1008. 1 : Agree with the absolute value of the specified value for the end
point coordinates and the sign of the specified value for the rotation direction.
NOTE This parameter is enabled when the rotary axis
control function is provided and the rotary axis roll-over function is used (with bit 0 (ROAx) of parameter No.1008 set to 1).
RMCx When machine coordinate system selection (G53) or high-speed
machine coordinate system selection (G53P1) is used, bit 1 (RABx) of parameter No. 1008 for setting the rotation direction of an absolute command and bit 3 (RAAx) of parameter No. 1007 or parameter No. 1008 for rotary axis control used with the rotary axis roll-over function are: 0 : Invalid. 1 : Valid.
B-63530EN/03 4.DESCRIPTION OF PARAMETERS
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1010 Number of CNC-controlled axes
NOTE When this parameter is set, the power must be
turned off before operation is continued.
[Data type] Byte [Valid data range] 1, 2, 3, ..., the number of controlled axes
Set the maximum number of axes that can be controlled by the CNC. [Example] Suppose that the first axis is the X axis, and the second and
subsequent axes are the Y, Z, A, B, and C axes in that order, and that they are controlled as follows: X, Y, Z, and A axes: Controlled by the CNC A axis: Controlled by the CNC and PMC B and C axes: Controlled by the PMC Then set this parameter to 4 (total 4: 1st to 4th axes) With this setting, the fifth and sixth axes (B and C axes) are controlled only by the PMC, and therefore cannot be controlled directly by the CNC.
4.DESCRIPTION OF PARAMETERS B-63530EN/03
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#7 #6 #5 #4 #3 #2 #1 #0
1012 IDGx
[Data type] Bit axis IDGx The function for setting the reference position again, without dogs, is:
0 : Not inhibited. 1 : Inhibited.
NOTE 1 IDGx is enabled when bit 7 (IDG) of parameter
No.1002 is set to 1. 2 When the function for setting the reference
position, without dogs, is used, and the reference position is lost for some reason, an alarm requesting reference position return (No.300) is generated when the power is next turned on. If the operator performs reference position return, as a result of mistakenly identifying the alarm as that requesting the operator to perform a normal reference position return, an invalid reference position may be set. To prevent such an operator error, bit 0 (IDGx) of parameter No.1012 is provided to prevent the reference position